Impulses can be received in various contexts, including biological systems, technological devices, and communication networks. In Biology, nerve cells (neurons) receive electrical impulses through dendrites from other neurons or sensory receptors. In technology, devices like sensors and antennas receive electrical or digital signals. In communication networks, impulses can refer to data packets transmitted over the internet or other communication channels.
Impulses from the skin are received in the parietal lobe of the brain. The parietal lobe is responsible for processing sensory information such as touch, temperature, and pain.
Incoming neural impulses are received by the dendrites of a neuron. Dendrites are branch-like extensions that receive signals from other neurons and transmit them towards the cell body. Once the signals are received by the dendrites, they are integrated in the cell body before being transmitted down the axon.
Impulses from the eye are processed by the brain to create the sensation of sight, while impulses from the ear are processed to create the sensation of sound. These sensory perceptions are the result of complex neural pathways in the brain that interpret and make sense of the information received from the eyes and ears.
the eye receives visual images from our surroundings, these images are received by the cones and rods which are on the retina which is found in the eye, the images are translated (by the cones and rods) and sent as impulses to the brain through the optic nerve, the brain is then able to inter-prate these impulses into images we see.
dendrites receive electrical and chemical signals from axon terminals.
Impulses from the skin are received in the parietal lobe of the brain. The parietal lobe is responsible for processing sensory information such as touch, temperature, and pain.
Incoming neural impulses are received by the dendrites of a neuron. Dendrites are branch-like extensions that receive signals from other neurons and transmit them towards the cell body. Once the signals are received by the dendrites, they are integrated in the cell body before being transmitted down the axon.
Nerve cells carry the impulses around the body to the motor neurons. Nerve impulses are received and transmitted to the cell body by axons.
Nerve impulses are received and transmitted to the cell body by dendrites, which are branched structures that extend from the cell body. Dendrites receive signals from other neurons or sensory receptors and transmit this information to the cell body for integration and processing.
a voice coil is the electromagnet that causes a speaker horn to move in response to the electrical impulses received from the amplifier.
A neuron is the primary agent that is capable of initiating nervous impulses. When a stimulus is received, specialized structures in the neuron, called dendrites and axons, allow for the transmission of electrical signals to communicate and trigger nervous impulses.
Electrical impulses are referred to as neural impulses because a neural impulse cause electrical impulses. Neurons use electrical impulses to send messages.
Impulses from the eye are processed by the brain to create the sensation of sight, while impulses from the ear are processed to create the sensation of sound. These sensory perceptions are the result of complex neural pathways in the brain that interpret and make sense of the information received from the eyes and ears.
the eye receives visual images from our surroundings, these images are received by the cones and rods which are on the retina which is found in the eye, the images are translated (by the cones and rods) and sent as impulses to the brain through the optic nerve, the brain is then able to inter-prate these impulses into images we see.
dendrites receive electrical and chemical signals from axon terminals.
If counter imotion bring then incomin impulses can slow
where does the unterneuron carry impulses